scholarly article | Q13442814 |
P819 | ADS bibcode | 2015Oecol.177.1145V |
P356 | DOI | 10.1007/S00442-015-3220-Y |
P932 | PMC publication ID | 4363484 |
P698 | PubMed publication ID | 25634307 |
P5875 | ResearchGate publication ID | 271593839 |
P50 | author | Masha T. Van der Sande | Q57738244 |
Frank J. Sterck | Q91660629 | ||
Pieter A. Zuidema | Q43178492 | ||
P2860 | cites work | Forests and Climate Change: Forcings, Feedbacks, and the Climate Benefits of Forests | Q24289131 |
Do persistently fast-growing juveniles contribute disproportionately to population growth? A new analysis tool for matrix models and its application to rainforest trees | Q33506496 | ||
Individuals and the variation needed for high species diversity in forest trees | Q33534593 | ||
Individual-scale variation, species-scale differences: inference needed to understand diversity | Q34041936 | ||
Key canopy traits drive forest productivity. | Q51176994 | ||
Rebuilding community ecology from functional traits. | Q51189344 | ||
A global study of relationships between leaf traits, climate and soil measures of nutrient fertility | Q56964237 | ||
Why is plant-growth response to elevated CO2amplified when water is limiting, but reduced when nitrogen is limiting? A growth-optimisation hypothesis | Q56965795 | ||
Large trees drive forest aboveground biomass variation in moist lowland forests across the tropics | Q57023871 | ||
Let the concept of trait be functional! | Q57051570 | ||
Functional traits shape ontogenetic growth trajectories of rain forest tree species | Q57140426 | ||
Functional traits of individual trees reveal ecological constraints on community assembly in tropical rain forests | Q57140454 | ||
Explaining growth of individual trees: Light interception and efficiency of light use by Eucalyptus at four sites in Brazil | Q57440200 | ||
Biophysical properties and functional significance of stem water storage tissues in Neotropical savanna trees | Q58085009 | ||
Parenchyma cell respiration and survival in secondary xylem: does metabolic activity decline with cell age? | Q80583145 | ||
Ecology. Global decline in large old trees | Q34504527 | ||
Model selection in ecology and evolution | Q34526098 | ||
A review of whole-plant water use studies in tree | Q35090154 | ||
Towards a worldwide wood economics spectrum | Q37401383 | ||
Increasing carbon storage in intact African tropical forests | Q39173950 | ||
Constraints on physiological function associated with branch architecture and wood density in tropical forest trees | Q39241933 | ||
Regulation of water flux through tropical forest canopy trees: do universal rules apply? | Q39241967 | ||
How do traits vary across ecological scales? A case for trait-based ecology | Q39247379 | ||
Are functional traits good predictors of demographic rates? Evidence from five neotropical forests. | Q39363788 | ||
Architecture of 54 moist-forest tree species: traits, trade-offs, and functional groups | Q39363809 | ||
Leaf traits are good predictors of plant performance across 53 rain forest species | Q39363815 | ||
Woody-tissue respiration for Simarouba amara and Minquartia guianensis, two tropical wet forest trees with different growth habits | Q39415608 | ||
Tradeoffs in basal area growth and reproduction shift over the lifetime of a long-lived tropical species | Q39487636 | ||
Rate of tree carbon accumulation increases continuously with tree size | Q39489834 | ||
Persisting soil drought reduces leaf specific conductivity in Scots pine (Pinus sylvestris) and pubescent oak (Quercus pubescens). | Q39489971 | ||
Leaf traits determine the growth-survival trade-off across rain forest tree species | Q39489979 | ||
Functional traits and the growth-mortality trade-off in tropical trees | Q39604238 | ||
Assessing the generality of global leaf trait relationships | Q40431916 | ||
The ecology of individuals: incidence and implications of individual specialization | Q45221147 | ||
Reliance on stored water increases with tree size in three species in the Pacific Northwest | Q47173270 | ||
The relationship between tree height and leaf area: sapwood area ratio. | Q47184656 | ||
Modelling functional trait acclimation for trees of different height in a forest light gradient: emergent patterns driven by carbon gain maximization | Q47357109 | ||
P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
P6216 | copyright status | copyrighted | Q50423863 |
P433 | issue | 4 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | canopy | Q1134228 |
biomass | Q2945560 | ||
P1104 | number of pages | 11 | |
P304 | page(s) | 1145-1155 | |
P577 | publication date | 2015-01-30 | |
P1433 | published in | Oecologia | Q3349418 |
P1476 | title | Explaining biomass growth of tropical canopy trees: the importance of sapwood | |
P478 | volume | 177 |
Q90230757 | A Lightweight Leddar Optical Fusion Scanning System (FSS) for Canopy Foliage Monitoring |
Q57205170 | Biodiversity and climate determine the functioning of Neotropical forests |
Q64107086 | Leaf:wood allometry and functional traits together explain substantial growth rate variation in rainforest trees |
Q58804125 | Living on borrowed time - Amazonian trees use decade-old storage carbon to survive for months after complete stem girdling |
Q57046835 | Shoot growth of woody trees and shrubs is predicted by maximum plant height and associated traits |
Q93065539 | Temporal stability of aboveground biomass is governed by species asynchrony in temperate forests |
Q37558121 | Tree Age Distributions Reveal Large-Scale Disturbance-Recovery Cycles in Three Tropical Forests |
Q27306858 | Why Be a Shrub? A Basic Model and Hypotheses for the Adaptive Values of a Common Growth Form |
Q39067104 | Wood traits related to size and life history of trees in a Panamanian rainforest |
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